JPH067896B2 - Dust remover - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a dust remover for removing dust and the like generated in factories and the like, and more particularly to a dust remover using a novel dust adsorbing material. The dust remover according to the present invention also
It can also be used as a smoke eliminator for removing mist and fine particles that make up various types of smoke.

[Prior Art and Problems Thereof] As this type of dust remover, there has been an old dust remover in which the dust adsorbent made of granular solids is filled in the ventilation part, and a dust remover incorporating a dust removing filter. . Since this type of dust remover is a dry type dust remover, dust removal due to adhesion of dust to the adsorbent or filter cannot be expected. Therefore, when attempting to remove fine dust, the former dust remover needs to be densely packed with a dust adsorbent made of granular solid matter, and the latter dust remover needs to incorporate a fine filter. As a result, the ventilation resistance is significantly increased, and a powerful blower is required.

In recent years, water-absorbing polymers have been developed, which are produced by cross-linking an acrylic polymer itself or a graft polymer of the acrylic polymer and another polymer. It can store a large amount of water, which is several hundred times the weight, and can serve as a water reservoir. The stored water does not separate even when shocked, and the surface of the stored water is wet with the water. By using such a polymer as the dust adsorbing material, dust removal by adhesion is effectively performed.

However, this method requires watering during the operation as the polymer gradually dries during use.

The present invention has been made in view of the above circumstances, and an object thereof is to provide a dust remover capable of continuously supplying water and removing solid matter attached to a polymer to enable continuous regeneration and use of the polymer. And

[Means for Solving Problems] In order to achieve the above object, the dust remover according to the present invention has an endless adsorption belt made of a water-absorbent polymer cloth, which is disposed between the adsorption portion of the gas flow path and the cleaning tank below the adsorption portion. The belt can be moved in the length direction,
The water-absorbent polymer cloth is obtained by weaving a water-absorbent polymer fiber with another type of fiber to form a woven cloth having a space for ventilation, or a linear or granular material of a water-absorbent polymer as a support piece made of cloth. It is packed in a long and narrow hollow part of the suction belt.The moving direction of the suction belt is that the suction belt after cleaning and regeneration enters the flue from the cleaning tank on the downstream side of the gas flow direction, and the belt after suction moves in the gas flow direction. It is designed to be pulled out from the flue to the cleaning tank on the upstream side.

Here, the water-absorbent polymer is the acrylic polymer itself,
Alternatively, it is a water-insoluble substance formed by crosslinking a graft polymer of an acrylic polymer and another polymer substance. The graft polymer is, for example, a hydrolyzate of a graft polymer of starch and an acrylic polymer or a graft polymer of polyvinyl acetate and an acrylic polymer. Such polymers can store hundreds of times (by weight) more water than themselves and can act as a reservoir. The stored water contained in the water-absorbent polymer does not separate from the water-absorbent polymer even when the polymer is impacted. However, the surface of the polymer is wet with the leached water.

Since this water-absorbent polymer is a kind of polymer, it can take any shape.

Since the above water-absorbent polymer has such properties, it can form an excellent dust adsorbent.

Since the water-absorbing polymer containing water becomes an aggregate, it is necessary to prevent the air permeability from being impaired in order to effectively function as a dust adsorbent. As an example of such a dust adsorbent having air permeability, as shown in FIG.
A woven fabric having a space for ventilation, which is obtained by weaving a fiber made of a water-absorbing polymer with another type of fiber. As shown in FIG. 3, a linear or granular material of the water-absorbing polymer is used as a supporting piece made of a fabric. There are things packed in the long and narrow cavities of. Such a structure not only improves breathability, but also increases the wetting surface area and the contact area with the gas, so that the dust removal effect is improved.

The adsorption belt is washed with water in the washing tank by a method of jetting water, a method of swirling water, a method of scraping off adsorbed substances, a method of applying ultrasonic waves, or the like. Providing a rubber slit at the belt outlet of the cleaning tank is also effective in removing dust from the adsorption belt.

Regarding the moving direction of the adsorption belt, the adsorption belt after cleaning and regeneration enters the flue from the cleaning tank on the downstream side in the gas flow direction, and the belt after adsorption is drawn out from the flue to the cleaning tank on the upstream side in the gas flow direction. Is set as follows. As a result, the relatively coarse dust can be removed by the slightly dried upstream adsorption belt, and the dust can be quickly washed off. Further, since the adsorption belt after cleaning and regeneration on the downstream side is always wet with water, it is possible to completely remove dust by adhering relatively fine dust thereto. By thus setting the moving direction of the suction belt as described above, effective dust removal can be performed.

[Examples] Next, examples of the present invention will be specifically described with reference to the accompanying drawings.

In FIG. 1, a plurality of upper support rollers (2) are arranged in a zigzag pattern on the upper and lower sides of the suction part of the flue (1). A cleaning tank (3) is provided below the adsorption unit. The flue (1) and the cleaning tank (3) have an upstream rubber slit (4) that opens downward.
And a downstream rubber slit (5) that opens upwards. These rubber slits (4) and (5) serve to prevent gas leakage. Also, downstream rubber slit
(5) has a function of removing adhering dust from the adsorption belt. A roller may be used instead of the rubber slit. At the bottom of the cleaning tank (3), a drive roller (6) is arranged on the upstream side and a lower support roller (7) is arranged on the downstream side.

The upstream rubber slit (4) is below the uppermost support roller (2) on the most upstream side, and the drive roller (6) is below the slit (4). The downstream rubber slit (5) is below the most downstream upper support roller (2), and the lower support roller (7) is below the slit (5).

From the upper support roller (2) to the drive roller (6) via the upstream rubber slit (4), and from the lower support roller (7) to the upper support roller (2) via the downstream rubber slit (5), endless shape The suction belt (8) is stretched. Suction belt
(8) are alternately arranged vertically over a plurality of staggered upper support rollers (2) and meander in the adsorption section. Therefore, the belt (8) is provided in multiple layers with the surface facing the gas flow direction in the adsorption section.

A washing water nozzle (9) is provided in the washing tank (3) so as to face the adsorption belt (8), and the washing water (10) is stored up to the middle of the tank height. The drive roller (6) is rotated clockwise. In accordance with this, the adsorption belt (8) moves in the direction opposite to the gas flow direction while meandering in the adsorption portion, then passes through the water in the cleaning tank, and then returns to the adsorption portion to continuously circulate.

The adsorption belt is made of a water absorbent polymer cloth. In FIG. 2, the water-absorbent polymer cloth is in the form of fibers. That is, a water absorbent polymer fiber (11) and another type of fiber (12) such as chemical fiber or plant fiber are woven together to produce a woven fabric (14) having a space (13) for ventilation. .

Another example of the water-absorbent polymer cloth has the structure shown in FIG. That is, a cloth-made supporting piece (16) having an elongated hollow portion (15) is prepared, and the linear water-absorbing polymer (17) or the granular polymer is packed in the hollow portion (15).

[Advantages of the Invention] In the dust remover according to the present invention, an endless adsorption belt made of a water-absorbent polymer cloth is arranged across the adsorption portion of the gas flow path and the cleaning tank thereunder, and the belt is arranged in the longitudinal direction. Since it is designed to be movable, it is possible to supply water to the suction belt continuously by contacting the suction belt with the cleaning water in the tank, and to continuously remove dust adsorbed on the belt. However, the adsorption belt can be desorbed by washing and continuously regenerated. Further, as in the case of the prior art described at the beginning of this document, the problem that a powerful blower is required due to a large ventilation resistance can be solved, and the dust remover can be economically operated.

Further, the water-absorbent polymer cloth is obtained by weaving water-absorbent polymer fibers with other types of fibers into a woven cloth having a space for ventilation, or a linear or granular material of the water-absorbent polymer made of cloth. It is packed in the elongated cavity of the support piece. Such a structure not only improves breathability,
Since the wetted surface area is increased and the contact area with the gas is increased, the dust removal effect is improved.

Furthermore, the moving direction of the adsorption belt is that the adsorption belt after cleaning regeneration enters the flue from the cleaning tank on the downstream side in the gas flow direction,
The belt after adsorption is set so as to be pulled out from the flue to the cleaning tank on the upstream side in the gas flow direction. for that reason,
By the slightly dried upstream adsorption belt, relatively coarse dust can be removed and the dust can be quickly washed off. Further, since the adsorption belt after cleaning and regeneration on the downstream side is always wet with water, it is possible to completely remove dust by adhering relatively fine dust thereto. By thus setting the moving direction of the suction belt as described above, effective dust removal can be performed.

[Brief description of drawings]

The drawings show an embodiment of the present invention. FIG. 1 is a vertical sectional view of a dust remover, and FIGS. 2 and 3 are perspective views of a dust adsorbent. (1) ... Flue (gas passage), (2) ... Upper support roller, (3) ...
Cleaning tank, (4) ... upstream rubber slit, (5) ... downstream rubber slit, (6) ... drive roller, (7) ... lower support roller,
(8) ... Suction belt, (9) ... wash water nozzle, (10) ... wash water.

Claims (1)

[Claims] 1. An endless adsorption belt made of a water-absorbent polymer cloth is arranged over the adsorption section of a gas flow path and a cleaning tank thereunder so that the belt can move in the longitudinal direction. The water-absorbent polymer cloth is a woven cloth having a space for ventilation, which is obtained by weaving a water-absorbent polymer fiber with another kind of fiber, or a linear or granular material of a water-absorbent polymer of a cloth support piece. It is packed in a long and narrow cavity, and the moving direction of the adsorption belt is that the adsorption belt after cleaning and regeneration enters the flue from the cleaning tank on the downstream side of the gas flow direction, and the belt after adsorption moves in the gas flow direction. A dust remover that is set to be pulled out of the flue to the cleaning tank on the upstream side.